# Dynamics

Dynamics is the study of the forces which are responsible for the motion experienced by an object due to external forces acting on it.

In Physics and Engineering, there is Aerodynamics, Analytical dynamics, Anomalous dynamics, Astrodynamics,Brownian dynamics, File dynamics,Flight dynamics, Fluid dynamics or hydrodynamics, Computational fluid dynamics, Fractional dynamics, Molecular dynamics, Normal dynamics, Langevin dynamics, Quantum chromodynamics, Quantum electrodynamics, Relativistic dynamics, Single file dynamics, Stellar dynamics, System dynamics, and Thermodynamics.

vCalc's Dynamics folder contains the equations used in the study of the different dynamics.

### Parent Categories:

## Dynamics Calculators

## Dynamics Collections

## Dynamics Equations

- `a_x = F_x / m`
- `a_y = F_y/m`
- `a_z = F_z/m`
- `F_W = mg`
- `R = ((2v^2)/g) sin(theta) cos(theta)`
- Acceleration - Non-uniform Circular Motion
- Acceleration [ (Ft - Fg) / M ]
- Acceleration [`Deltav, Deltat`]
- Acceleration [Force/Mass]
- Acceleration with Fluid Resistance
- Air Speed
- Angular Acceleration (M,I)
- Angular Displacement at t
- Angular Frequency (torsion constant)
- Angular Frequency from Period
- Angular Frequency of Pendulum (Any gravity)
- Angular Frequency of Physical Pendulum
- Angular Velocity at t
- Angular Velocity Magnitude
- Apparent Weight at the Equator
- Average Circular Velocity
- Ballistic Angle of Velocity
- Ballistic Base Elevation
- Ballistic Coefficient
- Ballistic Initial Horizontal Velocity Component
- Ballistic Initial Vertical Velocity Component
- Ballistic Max Height
- Ballistic Projectile Displacement - x(`v_0`,t,`theta`)
- Ballistic Projectile Displacement - y(t,`theta`, `v_0`)
- Ballistic Projectile Displacement - y(x, `theta`, `v_0`)
- Ballistic Range
- Ballistic Range (Earth gravity)
- Ballistic Range - Delta Height
- Ballistic Travel Time
- Ballistic Velocity to Achieve Height
- Ballistic X Position
- Ballistic X Velocity
- Ballistic Y Position
- Ballistic Y Velocity
- Bernoulli Equation (Elevation)
- Bernoulli Equation (pressure)
- Centripetal Acceleration
- Centripetal Force
- Constant Acceleration
- Cylinder (solid) - Radius of Gyration about x-axis
- Cylinder (solid) - Radius of Gyration about xc-axis
- Cylinder (solid) - Radius of Gyration about y-axis
- Cylinder - Mass Moment of Inertia About `z_c`-axis
- Cylinder - Mass Moment of Inertia About y-axis
- Cylinder - Mass Moment of Inertia About z-axis
- Density of a Cylinder
- Distance Traveled
- Drag Force
- Energy (Rest)
- Energy = f(Power,Time)
- Force
- Force (`F = M * Delta V"/"Delta T`)
- Force Magnitude (from components)
- Force of Drag
- Frequency of Pendulum
- Hooke's Law
- Impulse (`Delta vecv`)
- Impulse (`Delta` speed)
- Initial Velocity
- International Gravity Formula
- Kinetic Energy
- Kinetic Energy (Relativistic)
- Kinetic Energy [m,v]